Wire coil insert with tapered end



Feb. 19, 1952 H. w. CRAM ETAL 2,586,007

WIRE COIL INSERT WITH TAPERED END Filed March 20, 194'! FIG. FIG. 2.

IN VE N TORS.

HARKNESS W CRAM JOHN O. FORSTER A T TOR/V5)? Patented Feb. 19, 1952 Harkness W. Cram, Pelham, and John 0. Forster, ona Island C ty; assi nqr y. ms ne.

assignments, to "He'li-Coil "C' oration, Long Island Gity, N. Y a corporation of DelaWaiE PPFQ FP MiPFFh 9 7;2SQEQUY9; 32

4 Claims. (01. Ill-1):

The invention relates to wirecoils of, thetype. frequently used in screw connections Where the coil with its outer portion is in engagement with an inner threading of a boss or nut member and, with its inner portionconstitutes a female, thread to be engaged by an exteriorly threaded screw member-such as a stud or bolt. Certain draw,- backs have been frequently encountered in such connections. When, at the start of the opera-j tion whereby the bolt or stud is screwed into the coil, insufficient care is taken to insure that the leading thread end of the bolt or stud exactly registers with the end of the thread groove formed by the coil, the free end of the coil wire,

or any corner occurring on the inner coil periphery tends to cut intothe. bolt or stud threading so as to. damage thelatter beyond repair. This danger prevails in particular when a power tool is used to drive the bolt or stud in.

The invention aims to minimizethis danger by a special form of the coil end into which the bolt or stud is intended to enter. The invention consists in that at least one of thecoil ends to be used as the entrance for the bolt or stud is.

shaped, with. a taper having an inner contour tangential in relation to theinner coil, circumference and extending from a point of the latter substantially to the outer coil circumference. Thereby, each and any corner is avoided which otherwise might cut into the thread convolutions of the bolt or stud. It even can be attained that a portion of the bolt or stud threading in the rear of the leading convolution end engages a portion of the first coil convolution in the rear of its end before the actual ends of bolt and coil threading interengage. In consequence the so contacting portions will act as mutual guides so that the convolution ends can readily enter into the respective thread grooves.

Further objects and details of the invention will be apparent from the description given hereinafter and the accompanying drawing illustrating embodiments thereof by way of example.

In the drawing:

Fig. 1 is a side elevation of a coil insert according to the invention,

Fig. 2 is a front view thereof,

Fig. 3 is a plan view of the face of the coil end,

Fig. 4 is a front view of a modified coil end, and

Fig. 5 is a front elevation of another embodiment of the invention.

Referring now to the drawing, the coil ll] of which only an end portion is shown in Fig. 1, is of substantially diamond shaped wire cross-section as indicated at I I. This cross-section is selected. for. the illustrated example because it is the, ne rnost'comgnonly used. However. it will beuundrstoodthatthe invention is applicable to of any desired cross-section be it round, quare, ita i-shapd or otherwise. As usual in of. thf l istratdt pe the t r a nner p pherahedges ofthe diamond are slightly d thetruncations appearing more clear:- BatZI Zand ltrespectively. The outer circumference L4 andtheinner circumference I 5 of thecoilfare visible 'in the front view of Fig. 2, 7 the coil end 16 appears as ataper having I ll located on the outer circumference being formed by'a portion. of the latter a straight line flank ldwhich is tangential atjpoint 'l flfwit h respect to the'inner circumferencei5 f e coil. Fig.3shows thefaceof flank wi h?n..;n. i 1iih-T pa l e h coilaxis and has'substantially the shapeof two truncated triangles, erectedv in oppositedirections on the same the height fof the inner triangle 2E1 bei l rge cqeii ura iflnsqf th ndiac ma be bt ine depending on 'the shape of the radial. cross-sece l'wir In order to attain the desired result it is,not

end he a straight line 18. However, it is imperative as stated above that the flank under consideration is tangential to the inner circumference of the coil. Fig. 4 shows, therefore, a modification wherein the inner flank 22 is an arc of a spiral tangential at point 23 with respect to the inner coil circumference I5 and of progressively increasing radial length so as to end at the point 24 of the outer coil circumference [4. This modified coil end also avoids any dangerous corner with which the threading of a bolt or stud might interfere during the screwing operation.

However, as the coil is made of wire and a cutting operation is required to shape the tapered end, the curved flank 22 is not quite so readily produced as the straight flank [8.

In certain instances, the cutting operation on the inside of the taper may be undesirable as a burr may be caused which, though to a lesser degree than a corner on the inner coil circumference, might scratch or roughen the thread flanks of a bolt or stud screwed into the coil. In order to avoid such burrs on the inside of the coil, the tapered end can be produced by an outside cut, e. g. along the dotted line 25 in Fig. 5, so that the point of the taper 26 is originally located on the inner coil periphery at 21. Then, the taper is bent outward so that the inner flank 28 r than that of the outer 2|. Other.

becomes substantially a straight line tangent to the inner coil circumference in point 29, and that the point of the taper is shifted to 30 on the outer circumference of the coil. In that event, the outer flank 3| of the taper will be concave substantially as shown.

It will be noted that out line 25 is shown tangential to the inner coil periphery [5. This is not necessarily so. Since, however, it is advisable to make the taper as long as possible and as a tangent to the inner periphery furnishes the longest straight taper flank 28, the illustrated form is the preferred one.

Similarly, to what has been stated with regard to Fig. 4, it is not essential that the flank 28 be straight-lined when bent into its final position, meaning that it may be curved but it is necessary that it is a tangential continuation of the inner coil circumference, that the distances of its points intermediate the point of tangency and its outer end from the coil axis increase, and that there are no corners throughout its length. The actual curvature of the outer concave flank is also immaterial and may more or less differ from that shown, as it will depend on the deformation caused by bending the taper outward and will therefore also depend on the cross-section of the coiled wire. Furthermore, it is not necessary, and this is true too with respect to the embodiment of Figs. 1 to 3 and the modification of Fig. 4, that the taper point is located exactly on the outer periphery of the coil. However, it should be located at least so close to the outer periphery, if on the inside of the latter, that it projects safely into the female thread groove of a boss or nut member to which the coil may be applied. On the other hand, it should not project much beyond the outer coil periphery, as otherwise the coil might not be readily inserted. In addition to the mentioned advantages the structure according to the invention will have a certain locking effect inasmuch as the taper point on the outer periphery will tend to prevent a coil once inserted into a boss or nut member from being readily backed out. In that respect, the effect will be similar to that described e. g. in U. S. Patent No. 2,152,681, where an end taper is provided which, however, forms a corner with the inner coil periphery.

We claim:

1. In a wire coil, as an insert for screw connections, a taper of at least one end convolution of said coil, said taper having its point substantially on the outer coil circumference, and having its inner contour tangential to the inner coil circumference and a face in a surface parallel to the coil axis, the distance of said inner contour from the coil center increasing progressively from the point of tangency to the taper, and said face being concave and coincident with the outer contour of said taper.

2. A coil as claimed in claim 1 wherein the length of the inner contour is substantially equal to that of a tangent to the inner coil circumference between the point of tangency and the outer coil circumference.

3. A method of providing a wire coil with a tapered end having its point of taper on its outer circumference which comprises coiling a piece of wire to form a wire coil, cutting an end of the coil in a straight plane parallel to the coil axis and substantially tangential to the inner coil circumference, so as to form a taper having its point on said inner circumference and bending said taper outward until said taper point is located substantially on the outer coil circumference.

4. A method as claimed in claim 3 wherein during the bending operation the originally curved inner contour of the taper is straightened so as to be tangential to the inner coil circumference.

HARKNESS W. CRAM. JOHN O. FORSTER.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 132,213 Murray Oct. 15, 1872 1,966,520 Rayner July 17, 193 

